KR20220133052A - Construction method capable of simultaneous pouring of multi-story walls and slab mortar of a building - Google Patents

Abstract

The present invention relates to a building construction method, and more particularly, to a multi-story wall and slab mortar of a building, which can improve the construction convenience and productivity of a building by simultaneously pouring mortar into the formwork installed in multiple layers during the construction of a multi-story building It relates to a construction method that allows simultaneous pouring.

Description

Construction method capable of simultaneous pouring of multi-story walls and slab mortar of a building

The present invention relates to a building construction method, and more particularly, to a multi-story wall and slab mortar of a building, which can improve the construction convenience and productivity of a building by simultaneously pouring mortar into the formwork installed in multiple layers during the construction of a multi-story building It relates to a construction method that allows simultaneous pouring.

In general, a building uses reinforcing bars to build a foundation, installs formwork one floor at a time, removes the formwork after pouring and hardening concrete, and then installing reinforcing bars and formwork on the upper floor. , the building is constructed by constructing a reinforced concrete structure that corresponds to the skeleton of the building one layer at a time from the lowest floor to the top floor.

Specifically, the wall reinforcing bars placed in the wall formwork and the slab reinforcing bars placed in the slab formwork are constructed so that the wall and the slab are integrated one by one by workers, according to a certain specification along the wall forming part including the column part or the column part. A high-rise building is constructed by forming a frame with reinforcing bars, placing the frame in the center and fixing and installing the formwork at predetermined intervals on the inner and outer surfaces, then filling and curing the concrete supplied by ready-mixed concrete. .

However, if the construction is carried out sequentially from the lowest floor to the uppermost floor in this way, since a period for curing the concrete is required for each floor construction, there is a problem in that the continuity of the construction work is deteriorated and the construction period is increased. In addition, there is a problem that the higher the floor, the excessively the construction period is required.

Korean Patent Publication No. 10-2019-0109815 (2019. 09. 27)

The present invention relates to a building construction method capable of simultaneously pouring mortar on a multi-story wall and slab of a building, which can improve the construction convenience and productivity of the building by simultaneously pouring mortar on the formwork installed in multiple layers when constructing a multi-story building.

The present invention for performing the above object, the steps of installing a load-bearing structure; installing a formwork module for a wall on the side of the load-bearing structure; installing a formwork module for a slab so as to be connected to the formwork module for the wall at the lower or upper part of the load-bearing structure; Injecting mortar into the formwork module for the wall, and filling the formwork module for the wall and the formwork module for the slab with mortar; construction methods are provided.

At this time, the formwork module for the wall, the first body frame having a hollow inside; and a cover plate covering both sides of the first body frame, wherein the slab formwork module includes: a second body frame having a hollow inside; and a cover plate that covers the upper and lower portions of the second body frame.

At this time, the cover plate provided on both sides of the first body frame of the formwork module for the wall includes a first cover plate provided on the inside and a second cover plate provided on the outside, the first cover plate may be formed with a plurality of perforated portions.

In addition, the cover plate provided on the upper and lower portions of the second body frame of the formwork module for the slab includes a third cover plate provided on the upper portion and a fourth cover plate provided on the lower portion, and the third cover The plate may be formed with a plurality of perforations.

In this case, a height of the first cover plate may be shorter than a height of the second cover plate so that a portion of the first body frame is opened.

In addition, the fourth cover plate may have a plurality of concave-convex grooves to be seated on the load-bearing structure.

In this case, the lower portion of the first body frame is opened, and the formwork module for the slab may be installed to communicate with the lower portion of the first body frame.

At this time, it is inserted into the first body frame so as to be located on the upper side of the formwork module for the slab, and further includes a load reducing structure installed in the first body frame to reduce the load applied by the concrete injected into the inside. And, the load reducing structure may include: an insertion plate inserted into the first body frame parallel to the ground; and a plurality of slits formed in the insertion plate.

At this time, further comprising a connection structure for connecting the mortar injected into the first body frame of the formwork module for the wall and the mortar injected into the second body frame of the formwork module for the slab, the connection structure is, a connecting bar provided in the first body frame along the longitudinal direction of the first body frame; a first fixing bar protruding from the connecting bar in a height direction; and a second fixing bar protruding from the connecting bar in the width direction and partially positioned inside the second body frame.

The building construction method according to the present invention can improve the construction convenience and productivity of a building by simultaneously pouring mortar to the formwork installed in multiple layers when constructing a multi-story building. there is

In addition, by pouring mortar on the wall and the slab at the same time and constructing it, there is an effect of improving the continuity of the construction work and shortening the construction period.

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a schematic diagram of a building constructed by a building construction method according to an embodiment of the present invention. 2 is a flowchart for explaining a construction method according to an embodiment of the present invention. 3 is a reference diagram for explaining a formwork module for a wall used in a building construction method according to an embodiment of the present invention. 4 and 5 are reference views for explaining the formwork module for the slab used in the construction method according to an embodiment of the present invention. 6 to 8 are reference views for explaining a process of installing a formwork module for a wall and a formwork module for a slab used in a construction method according to an embodiment of the present invention. 9 is a reference diagram for explaining a building construction method according to an embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated and described in the drawings.

However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

Terms including an ordinal number such as first, second, etc. may be used to describe various elements, but the elements are not limited by the terms.

The above terms are used only for the purpose of distinguishing one component from another.

For example, without departing from the scope of the present invention, the second component may be referred to as the first component, and similarly, the first component may also be referred to as the second component.

and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

When a component is referred to as being “connected” or “connected” to another component, it may be directly connected or connected to the other component, but it is understood that other components may exist in between. it should be

On the other hand, when it is said that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention.

The singular expression includes the plural expression unless the context clearly dictates otherwise.

In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It is to be understood that this does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, the embodiment will be described in detail with reference to the accompanying drawings, but the same or corresponding components are given the same reference numerals regardless of the reference numerals, and the overlapping description thereof will be omitted.

1 is a schematic diagram of a building constructed by a building construction method according to an embodiment of the present invention, and FIG. 2 is a flowchart illustrating a building construction method according to an embodiment of the present invention.

1 and 2, the building construction method capable of simultaneously pouring the mortar of the multi-story wall and the slab of a building according to an embodiment of the present invention includes the steps of installing the load-bearing structure 10, the load-bearing structure ( Installing the formwork module 100 for the wall on the side of 10), installing the formwork module 200 for the slab so as to be connected with the formwork module 100 for the wall at the lower or upper part of the load-bearing structure 10, Injecting mortar into the formwork module 100 for the wall may include the step of filling the formwork module 100 for the wall and the formwork module 200 for the slab with mortar.

The load-bearing structure 10 serves as the skeleton of the building, supports the formwork module 100 for walls and the formwork module 200 for slabs to be described later, and mortar is injected therein to form a building.

In this case, the load-bearing structure 10 may be formed to include a reinforcing bar and a plurality of beams. The load structure may include a vertical beam 13 and a horizontal beam 11, and the vertical beam 13 and the horizontal beam 11 may include a truss, an H-beam, an I-beam, an L-beam, a tubular beam, and the like. A shaped beam may be used.

First, such a load-bearing structure 10 is installed in the field to form the skeleton of the building.

Next, the formwork module 100 for the wall is installed on the side of the load-bearing structure 10 , and the formwork module 200 for the slab is installed in the lower or upper part of the load-bearing structure 10 .

Specifically, in order to form a building, sidewalls and a floor/ceiling are required in addition to the skeleton, and the sidewalls of the building are formed using the formwork module 100 for walls and the floor/ceiling is formed using the formwork module 200 for the slab. will be.

In this embodiment, it has been described as installing the formwork module 100 for the wall and installing the formwork module 200 for the slab so as to be connected to the installed formwork module 100 for the wall, but is not limited thereto, and the formwork module 200 for the slab ) and it is also possible to install the formwork module 100 for the wall so as to be connected to the installed formwork module 200 for the slab.

Hereinafter, with reference to FIGS. 3 to 9, a construction method capable of simultaneously pouring mortar on a multi-story wall and a slab of a building will be described in detail.

The formwork module 100 for the wall is installed on the side of the load-bearing structure 10 , and mortar is injected and cured to form the side wall of the building.

In addition, the formwork module 200 for the slab is installed in the lower or upper portion of the load-bearing structure 10, the mortar is injected and cured to form the floor or ceiling of the building.

At this time, the formwork module 100 for the wall includes a first body frame 110 and cover plates 131 and 132, and the formwork module 200 for a slab is a second body frame 210, a cover plate 131, 132, 231, 232).

Specifically, referring to FIG. 3 , the wall formwork module 100 includes a first body frame 110 having a hollow inside and cover plates 131 and 132 for covering both sides of the first body frame 110 . may include.

The first body frame 110 is formed in a substantially rectangular parallelepiped shape by connecting a plurality of iron frames, and a hollow can be formed so that mortar can be injected therein to be filled.

The cover plates 131 and 132 may be formed in a rectangular shape on a plate to cover both sides of the first body frame 110 .

The cover plates 131 and 132 may include a first cover plate 131 provided inside the first body frame 110 and a second cover plate 132 provided outside the first body frame 110 . can In this case, the first cover plate 131 may have a plurality of perforated portions 135 formed therein. The first cover plate 131 in which the plurality of perforated portions 135 are formed may be in the form of a mesh-shaped wire mesh, and the first cover plate 131 in the mesh-shaped form is formed as the first body frame 110 . It is possible to prevent the injected mortar from leaking to the outside.

The first cover plate 131 is provided on the outside of the first body frame 110 , and when the mortar is injected into the first body frame 110 and cured, it may function as an outer wall of the building.

On the other hand, the second body frame 210 may be formed in a substantially rectangular parallelepiped shape by connecting a plurality of iron frames, and may be hollow so that mortar can be injected and filled therein.

The cover plates 231 and 232 may be formed in a rectangular shape on a plate to cover the upper and lower portions of the second body frame 210 .

The cover plates 231 and 232 may include a third cover plate 231 provided on an upper portion of the second body frame 210 and a fourth cover plate 232 provided on a lower portion of the second body frame 210 . can In this case, the third cover plate 231 may have a plurality of perforated portions 237 formed therein. The third cover plate 231 on which the plurality of perforated portions 237 are formed may be in the form of a wire mesh in the form of a mesh, and the third cover plate 231 in the form of a mesh serves as the second body frame 210 . It is possible to prevent the injected mortar from leaking to the outside.

The fourth cover plate 232 is provided under the second body frame 210 , and when the mortar is injected into the second body frame 210 and cured, it may function as a roof or ceiling of a building.

Referring to FIG. 5 , a concave-convex groove 235 may be formed in the fourth cover plate 232 . As described above, the formwork module 200 for the slab functions as a ceiling or floor upon completion of the building and is installed on the upper or lower portion of the load-bearing structure 10. In order to support this, the load-bearing structure 10 has a horizontal beam 11 ) or vertical beam 13 is installed, horizontal beam 11 or horizontal beam 11 or Concave-convex grooves 235 corresponding to the outer shape of the vertical beam 13 may be formed.

6 to 8 are reference views for explaining the process of installing the formwork module 100 for the wall and the formwork module 200 for the slab used in the building construction method according to an embodiment of the present invention. A process of installing the formwork module 100 for the wall and the formwork module 200 for the slab will be described with reference to FIGS. 6 to 8 .

Referring to FIG. 6 , the height of the first cover plate 131 may be shorter than that of the second cover plate 132 . Specifically, the formwork module 200 for the slab is connected to the formwork module 100 for the wall so that the mortar injected from the outside flows to the formwork module 200 for the slab through the formwork module 100 for the wall. The first cover plate 131 installed in the module 100 is formed shorter than the height of the second cover plate 132 to form an opening 137 in the lower portion of the first body frame 110, thereby forming a wall formwork module. (100) and the formwork module 200 for the slab is in communication.

On the other hand, the formwork module 100 for walls used in the construction method according to the present embodiment may further include a load reducing structure.

The load reduction structure is inserted and installed in the first body frame 110 so as to be located on the upper side of the formwork module 200 for the slab, and reduces the load applied by the concrete injected therein.

Referring to FIG. 7 , the load reducing structure is inserted and installed in the first body frame 110 including the insertion plate 270 and the slit 273 . Specifically, a pair of insertion grooves 115 for inserting the plate-shaped insertion plate 270 may be formed in the first body frame 110 , and the insertion plate 270 is inserted into the insertion groove 115 . The insertion plate 270 may be fixed to the first body frame 110 . At this time, a plurality of slits 273 may be formed in the insertion plate 270 , and the insertion plate 270 divides the hollow inner space inside the first body frame 110 into upper and lower sections, and the first body frame (110) It improves the stability of the building by dispersing the load applied by the mortar injected into the interior.

On the other hand, the construction method according to the present embodiment may further include a connection structure for connecting the formwork module 100 for the wall and the formwork module 200 for the slab.

The connection structure connects the mortar injected into the first body frame 110 of the formwork module 100 for the wall and the mortar injected into the second body frame 210 of the formwork module 200 for the slab.

Referring to FIG. 8 , the connection structure 310 may include a connection bar 311 , a first fixing bar 313 , and a second fixing bar 315 . The connecting bar 311 has a predetermined length and is provided in the first body frame 110 in the longitudinal direction of the first body frame 110 . The first fixing bar 313 is formed to protrude from the connection bar 311 in the height direction, and the second fixing bar 315 is formed to protrude from the connection bar 311 in the width direction so that a part of the second body frame 210 is formed. ) may be provided to be located inside.

When mortar is injected in the state where only the formwork module 100 for the wall and the formwork module 200 for the slab are arranged, the formwork module for the wall 100 and the formwork module for the slab 200 are connected by the mortar after curing the mortar. In this case, since the strength of the connection part of the formwork module 100 for the wall and the formwork for the slab may be lowered in this case, it is connected to the connection part of the first body frame 110 and the second body frame 210 when the mortar is injected. By providing the structure 310, the strength of the connection part of the formwork module 100 for the wall and the formwork module 200 for the slab is reinforced.

9 is a reference diagram for explaining a building construction method according to an embodiment of the present invention, and with reference to FIG. 9, a building construction method capable of simultaneously pouring mortar of a multi-story wall and a slab of a building is described.

First, the frame of the building is erected by installing the load-bearing structure 10 on the site, and the formwork module 100 for the wall is installed on the side of the load-bearing structure 10 .

Next, the formwork module 200 for the slab is installed so as to be connected to the formwork module 100 for the wall at the lower or upper portion of the load-bearing structure 10 .

However, it has been described above that it is possible to install the formwork module 200 for the slab first and install the formwork module 100 for the wall to be connected to the formwork module 200 for the slab.

Thereafter, the formwork module 100 for the wall and the formwork module 200 for the slab are repeatedly installed up to the number of floors of the building to be constructed.

When the wall formwork module 100 and the slab formwork module 200 are all installed, the mortar is injected from the top of the wall formwork module 100 located on the highest floor. The mortar injected from the top of the formwork module 100 for the highest layer flows to the formwork module 100 for the wall of the lowest layer and through the opening 137 of the formwork for the wall of the lowest layer to the formwork module 200 for the slab of the lowest layer. It flows in and fills the hollow interior space.

When the inner space of the formwork module 200 for the slab is completely filled with mortar, the inner space of the formwork module 100 for the wall is filled as the mortar is continuously introduced, and the same process is repeated for all formwork modules for the slab ( 200) and all the wall formwork modules 100 will be filled.

At this time, by inserting the first body frame 110 insertion plate 270 in the process of filling the inside of the formwork module 100 for the wall, the load due to the mortar filled inside the formwork module 100 for the wall is reduced. In addition, in the process in which the inside of the wall formwork module 100 is filled, the connection structure 310 is installed in the connection part of the first body frame 110 and the second body frame 210 to form the wall formwork module 100. and reinforce the strength of the connection part of the formwork module 200 for the slab. In this case, the installation of the load reducing structure and the installation of the connection structure 310 may be performed regardless of the installation order.

When the mortar is injected into all the formwork modules 100 for walls and all the formwork modules 200 for slabs, the mortar is then cured to complete the building.

According to the present invention through such a process, the construction convenience and productivity of the building can be improved by simultaneously pouring mortar on the formwork module 100 for walls and the formwork module 200 for slabs installed in multiple layers when constructing a multi-story building. there is an effect

In addition, by pouring mortar on the wall and the slab at the same time and constructing it, there is an effect of improving the continuity of the construction work and shortening the construction period.

In the above, specific embodiments have been shown and described to illustrate the technical idea of the present invention, but the present invention is not limited to the same configuration and operation as the specific embodiments as described above, and various modifications do not depart from the scope of the present invention. can be carried out within Accordingly, such modifications should be considered to fall within the scope of the present invention, and the scope of the present invention should be determined by the following claims.

10: load-bearing structure 11: horizontal beam 13: vertical beam 100: formwork module for wall 110: first body frame 115: insertion groove 131, 132, 231, 232: cover plate 131: first cover plate 132: second cover plate 135: perforation 137: opening 200: formwork module for slab 210: second body frame 231: third cover plate 232: fourth cover plate 235: uneven groove 237: perforation 270: insert plate 273: slit 310: connection structure 311: connection bar 313: first fixing bar 315: second fixing bar

Claims (9)

Installing a load-bearing structure; Installing a formwork module for a wall on the side of the load-bearing structure; Installing a formwork module for a slab to be connected to the formwork module for the wall at the lower or upper portion of the load-bearing structure; Injecting mortar into the formwork module for the wall, and filling the formwork module for the wall and the formwork module for the slab with mortar; construction method. According to claim 1, The formwork module for the wall, A first body frame having a hollow inside; and a cover plate covering both sides of the first body frame, wherein the slab formwork module includes: a second body frame having a hollow inside; and a cover plate for covering the upper and lower portions of the second body frame; characterized in that it comprises, a building construction method capable of simultaneously pouring mortar of a multi-story wall and a slab of a building. The method according to claim 2, wherein the cover plates provided on both sides of the first body frame of the wall formwork module include a first cover plate provided on the inside and a second cover plate provided on the outside, the The first cover plate is characterized in that a plurality of perforated parts are formed, a building construction method capable of simultaneously pouring the mortar of the multi-story wall and the slab of a building. The method of claim 2, wherein the cover plate provided on the upper and lower portions of the second body frame of the formwork module for the slab includes a third cover plate provided on the upper portion and a fourth cover plate provided on the lower portion, The third cover plate is characterized in that a plurality of perforated parts are formed, a building construction method capable of simultaneously pouring the mortar of the multi-story wall and the slab of a building. The mortar of claim 3, wherein the height of the first cover plate is shorter than the height of the second cover plate so that a part of the first body frame is opened. A construction method that allows simultaneous pouring. According to claim 3, The fourth cover plate is characterized in that a plurality of concavo-convex grooves are formed so as to be seated on the load-bearing structure, the mortar of the multi-story wall and the slab of a building can be cast simultaneously. According to claim 5, The first body frame has an open lower portion, The formwork module for the slab is installed to communicate with the lower portion of the first body frame, the mortar of the multi-story wall of the building and the slab at the same time A pourable construction method. According to claim 7, It is inserted into the first body frame so as to be located on the upper side of the formwork module for the slab, the load reduction installed in the first body frame in order to reduce the load applied by the concrete injected into the inside It further includes a structure, The load reducing structure, Insertion plate inserted parallel to the ground in the first body frame; and a plurality of slits formed in the insert plate, wherein the mortar of the multi-story wall and the slab of a building can be simultaneously poured. According to claim 7, Further comprising a connection structure for connecting the mortar injected into the first body frame of the formwork module for the wall and the mortar injected into the second body frame of the formwork module for the slab, The connection The structure may include: a connection bar provided inside the first body frame along a longitudinal direction of the first body frame; a first fixing bar protruding from the connection bar in a height direction; and a second fixing bar protruding from the connecting bar in the width direction, a portion of which is located inside the second body frame; .

Images